The long-term goal of the proposed research is to identify mechanisms responsible for the effects of growth hormone (GH) signaling on aging and longevity in mammals. Studies conducted by the applicants during the last 10 years, together with results obtained in other laboratories, have provided unequivocal evidence that GH deficiency and GH insensitivity in mice are associated with a marked increase in mean and maximal longevity. Studies of age-sensitive traits and analysis of survival characteristics in GH-deficient and GH-resistant mice indicate that increased longevity of these animals is coupled with and most likely due to a delay and/or deceleration of the process of biological aging. Our collaborative studies and work of other investigators defined a series of mechanisms that might, in principle, link GH signaling with longevity. In the proposed work we will use both well-characterized and novel mouse mutants to probe several of these specific mechanisms.
Our aim i s to develop a compelling model of the pathway or pathways that connect diminished GH or IGF-I signaling to extended longevity and to relate these pathways to maintenance of cognitive and physical function. The proposed collaborative studies will define the role of liver, adipose tissue and muscle in mediating the effects of GH and IGF-I on age-sensitive traits and longevity;and to elucidate the interactive effects of altered insulin signaling, adipocyte secretory profiles and stress resistance in mediating these effects. Project 1 will relate somatotropic and insulin signaling to stress resistance and aging. Project 2 will produce novel animals lacking the GHR/GHBP gene only in the liver, white adipose tissue or muscle. Project 3 will study mechanisms of stress resistance in fibroblasts and pre-adipocytes and evaluate longevity and age-sensitive traits in novel mutant mice developed in Project 2. Project 4 will characterize pre-adipocyte utilization, characteristics and senescence in mutants with altered GH signaling. Core A will coordinate research, information exchange and communication with Advisory Committee, develop shared data base and provide statistical support. Core B will assess gross and microscopic pathological changes with emphasis on novel mutants developed by Project 2. Improved understanding of the role of somatotropic and insulin signaling in the control of mammalian aging is needed for designing lifestyle and pharmacological interventions to maintain health and functionality during human aging. This information is also needed to develop rational basis for exploring or discouraging the use of human GH as an anti-aging agent.

Public Health Relevance

Improved understanding of the role of somatotropic and insulin signaling in the control of mammalian aging is needed for designing lifestyle and pharmacological interventions to maintain health and functionality during human aging. This information is also needed to develop rational basis for exploring or discouraging the use of human GH as an anti-aging agent.

Agency
National Institute of Health (NIH)
Institute
National Institute on Aging (NIA)
Type
Research Program Projects (P01)
Project #
3P01AG031736-02S2
Application #
8138295
Study Section
Special Emphasis Panel (ZAG1-ZIJ-5 (J3))
Program Officer
Finkelstein, David B
Project Start
2009-04-15
Project End
2012-03-31
Budget Start
2010-09-15
Budget End
2011-03-31
Support Year
2
Fiscal Year
2010
Total Cost
$22,291
Indirect Cost
Name
Southern Illinois University School of Medicine
Department
Physiology
Type
Schools of Medicine
DUNS #
038415006
City
Springfield
State
IL
Country
United States
Zip Code
62794
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Householder, Lara A; Comisford, Ross; Duran-Ortiz, Silvana et al. (2018) Increased fibrosis: A novel means by which GH influences white adipose tissue function. Growth Horm IGF Res 39:45-53
Nelson, Caroline N; List, Edward O; Ieremia, Makerita et al. (2018) Growth hormone activated STAT5 is required for induction of beige fat in vivo. Growth Horm IGF Res 42-43:40-51
Duran-Ortiz, Silvana; Noboa, Vanessa; Kopchick, John J (2018) Disruption of the GH receptor gene in adult mice and in insulin sensitive tissues. Growth Horm IGF Res 38:3-7
Schneider, Augusto; Matkovich, Scot J; Saccon, Tatiana et al. (2017) Ovarian transcriptome associated with reproductive senescence in the long-living Ames dwarf mice. Mol Cell Endocrinol 439:328-336
Dominick, Graham; Bowman, Jacqueline; Li, Xinna et al. (2017) mTOR regulates the expression of DNA damage response enzymes in long-lived Snell dwarf, GHRKO, and PAPPA-KO mice. Aging Cell 16:52-60
Bartke, Andrzej; Darcy, Justin (2017) GH and ageing: Pitfalls and new insights. Best Pract Res Clin Endocrinol Metab 31:113-125
Bennis, Mohammed T; Schneider, Augusto; Victoria, Berta et al. (2017) The role of transplanted visceral fat from the long-lived growth hormone receptor knockout mice on insulin signaling. Geroscience 39:51-59
Saccon, Tatiana D; Moreira, Fabiana; Cruz, Luis A et al. (2017) Ovarian aging and the activation of the primordial follicle reserve in the long-lived Ames dwarf and the short-lived bGH transgenic mice. Mol Cell Endocrinol 455:23-32
Hascup, Kevin N; Lynn, Mary K; Fitzgerald, Patrick J et al. (2017) Enhanced Cognition and Hypoglutamatergic Signaling in a Growth Hormone Receptor Knockout Mouse Model of Successful Aging. J Gerontol A Biol Sci Med Sci 72:329-337

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